| Image | Part Number | Description / PDF | Quantity | Rfq |
|---|---|---|---|---|
 |
t-Global Technology |
THERM PAD A1660 5X5X1MM |
548 |
|
 |
THERMAL TAPE 320X320MM, THICKNES |
1 |
|
|
 |
THERMAL PAD, SHEET 160X160MM, TH |
4 |
|
|
 |
t-Global Technology |
THERM PAD 150MMX150MM GRAY |
18 |
|
 |
Wakefield-Vette |
THERM PAD 101.6MMX101.6MM GOLD |
257 |
|
 |
3M |
3M THERMALLY CONDCUTIVE ADHESIVE |
3 |
|
 |
Wakefield-Vette |
THERM PAD 101.6MMX101.6MM GRAY |
229 |
|
 |
Parker Chomerics |
THERM PAD 14X14MM PNK 1=16 |
549 |
|
 |
Laird - Performance Materials |
THERM PAD 228.6MMX228.6MM PINK |
0 |
|
 |
THERMAL PAD, SHEET 320X320MM, TH |
1 |
|
|
 |
t-Global Technology |
THERM PAD 300MMX300MM YELLOW |
0 |
|
 |
Panasonic |
THERM PAD 121MMX104.5MM GRAY |
6 |
|
 |
CUI Devices |
THERM PAD 15MMX30MM 1 SHT=196PC |
11 |
|
 |
CUI Devices |
THERM PAD 50MMX50MM 1 SHEET=32PC |
67 |
|
 |
Henkel / Bergquist |
THERM PAD 24MMX21.01MM GREEN |
9284 |
|
 |
t-Global Technology |
THERMAL PAD 190X140MM DARK GREY |
9 |
|
 |
Henkel / Bergquist |
THERM PAD 45.21MMX31.75MM GRAY |
0 |
|
 |
3G Shielding Specialties |
THERMAL INTERFACE MATERIAL |
20 |
|
 |
t-Global Technology |
THERM PAD 640MMX320MM W/ADH YLW |
2 |
|
 |
Panasonic |
THERM PAD 115MMX90MM W/ADH WHITE |
10 |
|
Thermal pads and sheets are thermally conductive materials used to transfer heat away from electronic components to heat sinks or ambient environments. They fill air gaps between uneven surfaces, improving thermal efficiency. These materials are critical in modern electronics, automotive systems, and industrial equipment to prevent overheating, enhance reliability, and ensure compliance with safety standards.
| Type | Functional Features | Application Examples |
|---|---|---|
| Silicone-Based Pads | High flexibility, low compression force, dielectric insulation | Smartphones, laptops, LED lighting |
| Non-Silicone Pads | Lower cost, reduced silicone oil migration | Power supplies, industrial controls |
| Phase Change Materials (PCM) | Softening at operational temperatures for better contact | CPUs, GPUs, servers |
| Metal-Backed Pads | Aluminum/copper reinforcement for structural support | EV battery packs, high-power lasers |
| Graphite Sheets | Ultra-thin, anisotropic heat spreading | 5G base stations, wearable devices |
Typical thermal pads consist of:
| Parameter | Importance |
|---|---|
| Thermal Conductivity (W/m K) | Measures heat transfer efficiency (ASTM D5470) |
| Thickness (mm) | Impacts contact resistance and compression force |
| Operating Temperature Range ( C) | Determines material stability under thermal stress |
| Hardness (Shore 00) | Affects conformability to surfaces |
| Adhesion Strength (N/mm ) | Critical for mechanical fixation |
| Electrical Insulation (kV/mm) | Essential for high-voltage applications |
Major industries include:
| Manufacturer | Representative Product | Key Specification |
|---|---|---|
| Laird Performance Materials | THERM-A-GAP GEL 15 | 15 W/m K, 0.5mm thickness |
| Bergquist (Henkel) | Gap Pad 1500S | Silicone-free, 8.0 W/m K |
| 3M | 5595 PCM | Phase change at 55 C, 12 W/m K |
| Fujipoly | SARCON Matrix MG | Metal-gel hybrid, 20 W/m K |
| Momentive | TSE 3045 | Graphite sheet, 400 W/m K (in-plane) |
Key considerations:
Emerging trends include: